Filip Leonarski
95acf3aba3
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This is an UNSTABLE release. jfjoch_writer: Fix and improve the way grid scan geometry is saved (non-NXmx extension makes it way easier) jfjoch_viewer: Display grid scan results in 2D (work in progress) jfjoch_viewer: Improve auto-scaling on start of images (work in progress) jfjoch_viewer: Add B-factor and resolution estimate to the dataset info plots Reviewed-on: #9 Co-authored-by: Filip Leonarski <filip.leonarski@psi.ch> Co-committed-by: Filip Leonarski <filip.leonarski@psi.ch>
536 lines
19 KiB
C++
536 lines
19 KiB
C++
// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
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// SPDX-License-Identifier: GPL-3.0-only
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#include <catch2/catch_all.hpp>
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#include "../common/GridScanSettings.h"
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#include "../common/JFJochException.h"
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TEST_CASE("GridScanSettings basic construction", "[GridScanSettings]") {
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SECTION("Valid parameters") {
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REQUIRE_NOTHROW(GridScanSettings(10, 1.0f, 2.0f, false, false));
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REQUIRE_NOTHROW(GridScanSettings(10, 1.0f, -2.0f, true, false));
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REQUIRE_NOTHROW(GridScanSettings(10, -1.0f, 2.0f, false, true));
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REQUIRE_NOTHROW(GridScanSettings(10, 1.0f, 2.0f, true, true));
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}
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SECTION("Invalid parameters") {
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// Negative n_fast
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REQUIRE_THROWS_AS(GridScanSettings(-5, 1.0f, 2.0f, false, false), JFJochException);
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// Zero n_fast
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REQUIRE_THROWS_AS(GridScanSettings(0, 1.0f, 2.0f, false, false), JFJochException);
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// Zero grid_step_fast_um
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REQUIRE_THROWS_AS(GridScanSettings(10, 0.0f, 2.0f, false, false), JFJochException);
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// Zero grid_step_slow_um
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REQUIRE_THROWS_AS(GridScanSettings(10, 1.0f, 0.0f, false, false), JFJochException);
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}
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}
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TEST_CASE("GridScanSettings image number", "[GridScanSettings]") {
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GridScanSettings grid(5, 1.5f, 2.5f, false, false);
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CHECK_THROWS(grid.ImageNum(-1));
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grid.ImageNum(0);
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CHECK(grid.GetNSlow() == 0);
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CHECK(grid.GetNFast() == 5);
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grid.ImageNum(1);
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CHECK(grid.GetNSlow() == 1);
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CHECK(grid.GetNFast() == 5);
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grid.ImageNum(4);
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CHECK(grid.GetNSlow() == 1);
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CHECK(grid.GetNFast() == 5);
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grid.ImageNum(6);
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CHECK(grid.GetNSlow() == 2);
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CHECK(grid.GetNFast() == 5);
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grid.ImageNum(13);
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CHECK(grid.GetNSlow() == 3);
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CHECK(grid.GetNFast() == 5);
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}
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TEST_CASE("GridScanSettings horizontal scan", "[GridScanSettings]") {
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// Create a grid with 5 elements in fast direction, 1.5 um step in fast, 2.5 um in slow
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GridScanSettings grid(5, 1.5f, 2.5f, false, false);
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SECTION("Grid sizes in steps") {
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REQUIRE(grid.GetGridSizeX_step() == 5);
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REQUIRE(grid.GetGridSizeY_step() == 1);
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REQUIRE(grid.GetGridSizeX_um() == Catch::Approx(5 * 1.5f));
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REQUIRE(grid.GetGridSizeY_um() == Catch::Approx(1 * 2.5f));
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}
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grid.ImageNum(40);
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SECTION("Grid sizes in steps") {
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REQUIRE(grid.GetGridSizeX_step() == 5);
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REQUIRE(grid.GetGridSizeY_step() == 8);
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REQUIRE(grid.GetGridSizeX_um() == Catch::Approx(5 * 1.5f));
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REQUIRE(grid.GetGridSizeY_um() == Catch::Approx(8 * 2.5f));
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}
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SECTION("Element positions in standard raster") {
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// First row
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REQUIRE(grid.GetElementPosX_step(0) == 0);
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REQUIRE(grid.GetElementPosY_step(0) == 0);
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REQUIRE(grid.GetElementPosX_step(1) == 1);
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REQUIRE(grid.GetElementPosY_step(1) == 0);
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REQUIRE(grid.GetElementPosX_step(4) == 4);
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REQUIRE(grid.GetElementPosY_step(4) == 0);
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// Second row
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REQUIRE(grid.GetElementPosX_step(5) == 0);
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REQUIRE(grid.GetElementPosY_step(5) == 1);
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REQUIRE(grid.GetElementPosX_step(9) == 4);
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REQUIRE(grid.GetElementPosY_step(9) == 1);
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// Positions in um
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REQUIRE(grid.GetElementPosX_um(4) == Catch::Approx(6.0f)); // 4 * 1.5
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REQUIRE(grid.GetElementPosY_um(9) == Catch::Approx(2.5f)); // 1 * 2.5
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}
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}
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TEST_CASE("GridScanSettings vertical scan", "[GridScanSettings]") {
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// Create a vertical grid with 5 elements in fast direction
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GridScanSettings grid(5, 2.5f, 1.5f, false, true);
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grid.ImageNum(15);
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SECTION("Grid sizes in steps") {
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// For vertical scan, fast = Y
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REQUIRE(grid.GetGridSizeY_step() == 5);
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REQUIRE(grid.GetGridSizeX_step() == 3);
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}
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SECTION("Grid sizes in um") {
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REQUIRE(grid.GetGridSizeY_um() == Catch::Approx(5 * 1.5f));
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REQUIRE(grid.GetGridSizeX_um() == Catch::Approx(3 * 2.5f));
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}
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SECTION("Grid steps") {
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REQUIRE(grid.GetGridStepY_um() == Catch::Approx(1.5f));
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REQUIRE(grid.GetGridStepX_um() == Catch::Approx(2.5f));
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}
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SECTION("Element positions in vertical scan") {
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// First column
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REQUIRE(grid.GetElementPosX_step(0) == 0);
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REQUIRE(grid.GetElementPosY_step(0) == 0);
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REQUIRE(grid.GetElementPosX_step(1) == 0);
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REQUIRE(grid.GetElementPosY_step(1) == 1);
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REQUIRE(grid.GetElementPosX_step(4) == 0);
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REQUIRE(grid.GetElementPosY_step(4) == 4);
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// Second column
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REQUIRE(grid.GetElementPosX_step(5) == 1);
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REQUIRE(grid.GetElementPosY_step(5) == 0);
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REQUIRE(grid.GetElementPosX_step(9) == 1);
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REQUIRE(grid.GetElementPosY_step(9) == 4);
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}
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}
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TEST_CASE("GridScanSettings snake raster scan", "[GridScanSettings]") {
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// Create a grid with snake pattern - horizontal
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GridScanSettings grid(5, 1.5f, 2.5f, true, false);
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grid.ImageNum(50);
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SECTION("Element positions in snake raster") {
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// First row (left to right)
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REQUIRE(grid.GetElementPosX_step(0) == 0);
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REQUIRE(grid.GetElementPosY_step(0) == 0);
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REQUIRE(grid.GetElementPosX_step(4) == 4);
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REQUIRE(grid.GetElementPosY_step(4) == 0);
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// Second row (right to left)
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REQUIRE(grid.GetElementPosX_step(5) == 4);
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REQUIRE(grid.GetElementPosY_step(5) == 1);
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REQUIRE(grid.GetElementPosX_step(9) == 0);
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REQUIRE(grid.GetElementPosY_step(9) == 1);
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// Third row (left to right)
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REQUIRE(grid.GetElementPosX_step(10) == 0);
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REQUIRE(grid.GetElementPosY_step(10) == 2);
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REQUIRE(grid.GetElementPosX_step(14) == 4);
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REQUIRE(grid.GetElementPosY_step(14) == 2);
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}
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}
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TEST_CASE("GridScanSettings vertical snake raster scan", "[GridScanSettings]") {
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// Create a grid with snake pattern - vertical
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GridScanSettings grid(5, 1.5f, 2.5f, true, true);
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grid.ImageNum(50);
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SECTION("Element positions in vertical snake raster") {
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// First column (top to bottom)
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REQUIRE(grid.GetElementPosX_step(0) == 0);
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REQUIRE(grid.GetElementPosY_step(0) == 0);
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REQUIRE(grid.GetElementPosX_step(4) == 0);
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REQUIRE(grid.GetElementPosY_step(4) == 4);
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// Second column (bottom to top)
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REQUIRE(grid.GetElementPosX_step(5) == 1);
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REQUIRE(grid.GetElementPosY_step(5) == 4);
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REQUIRE(grid.GetElementPosX_step(9) == 1);
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REQUIRE(grid.GetElementPosY_step(9) == 0);
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// Third column (top to bottom)
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REQUIRE(grid.GetElementPosX_step(10) == 2);
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REQUIRE(grid.GetElementPosY_step(10) == 0);
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REQUIRE(grid.GetElementPosX_step(14) == 2);
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REQUIRE(grid.GetElementPosY_step(14) == 4);
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}
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}
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TEST_CASE("GridScanSettings negative fast step", "[GridScanSettings]") {
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// Create a grid with negative step sizes
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GridScanSettings grid(5, -1.5f, 2.5f, false, false);
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grid.ImageNum(35);
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SECTION("Element positions") {
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// First column
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REQUIRE(grid.GetElementPosX_step(0) == 4);
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REQUIRE(grid.GetElementPosY_step(0) == 0);
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REQUIRE(grid.GetElementPosX_step(4) == 0);
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REQUIRE(grid.GetElementPosY_step(4) == 0);
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// Second column
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REQUIRE(grid.GetElementPosX_step(5) == 4);
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REQUIRE(grid.GetElementPosY_step(5) == 1);
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REQUIRE(grid.GetElementPosX_step(9) == 0);
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REQUIRE(grid.GetElementPosY_step(9) == 1);
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}
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SECTION("Grid sizes with negative steps") {
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// Grid sizes should use absolute values
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REQUIRE(grid.GetGridSizeX_um() == Catch::Approx(5 * 1.5f));
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REQUIRE(grid.GetGridSizeY_um() == Catch::Approx(7 * 2.5f));
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}
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SECTION("Element positions with negative steps") {
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REQUIRE(grid.GetElementPosX_um(0) == Catch::Approx(4 * 1.5f));
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REQUIRE(grid.GetElementPosX_um(4) == Catch::Approx(0));
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REQUIRE(grid.GetElementPosY_um(5) == Catch::Approx(2.5f));
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}
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SECTION("Grid steps maintain sign") {
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REQUIRE(grid.GetGridStepX_um() == Catch::Approx(-1.5f));
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REQUIRE(grid.GetGridStepY_um() == Catch::Approx(2.5f));
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}
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}
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TEST_CASE("GridScanSettings negative slow step", "[GridScanSettings]") {
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// Create a grid with negative step sizes
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GridScanSettings grid(5, 1.5f, -2.5f, false, false);
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grid.ImageNum(35);
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SECTION("Element positions") {
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// First column
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REQUIRE(grid.GetElementPosX_step(0) == 0);
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REQUIRE(grid.GetElementPosY_step(0) == 6);
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REQUIRE(grid.GetElementPosX_step(4) == 4);
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REQUIRE(grid.GetElementPosY_step(4) == 6);
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// Second column
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REQUIRE(grid.GetElementPosX_step(5) == 0);
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REQUIRE(grid.GetElementPosY_step(5) == 5);
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REQUIRE(grid.GetElementPosX_step(9) == 4);
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REQUIRE(grid.GetElementPosY_step(9) == 5);
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}
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SECTION("Grid sizes with negative steps") {
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// Grid sizes should use absolute values
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REQUIRE(grid.GetGridSizeX_um() == Catch::Approx(5 * 1.5f));
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REQUIRE(grid.GetGridSizeY_um() == Catch::Approx(7 * 2.5f));
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}
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SECTION("Element positions with negative steps") {
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// Positions should maintain sign
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REQUIRE(grid.GetElementPosX_um(4) == Catch::Approx(4 * 1.5f));
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REQUIRE(grid.GetElementPosY_um(5) == Catch::Approx(5 * 2.5f));
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}
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SECTION("Grid steps maintain sign") {
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REQUIRE(grid.GetGridStepX_um() == Catch::Approx(1.5f));
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REQUIRE(grid.GetGridStepY_um() == Catch::Approx(-2.5f));
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}
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}
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TEST_CASE("GridScanSettings::Rearrange functionality tests", "[gridscan][rearrange]") {
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SECTION("Basic rearrangement in standard grid configuration") {
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// Create a basic 3x3 grid with standard parameters
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GridScanSettings grid(3, 1.0f, 1.0f, false, false);
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grid.ImageNum(9); // 3x3 grid
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// Create test input data [0,1,2,3,4,5,6,7,8]
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std::vector<float> input(9);
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for (int i = 0; i < 9; i++) {
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input[i] = static_cast<float>(i);
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}
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input);
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// In standard mode (no snake, no vertical), data should be mapped correctly
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// Each row in source (0,1,2), (3,4,5), (6,7,8)
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// should appear in the same positions in the output
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REQUIRE(output.size() == 9);
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for (int i = 0; i < 9; i++) {
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REQUIRE(output[i] == Catch::Approx(input[i]));
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}
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}
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SECTION("Snake raster scan rearrangement") {
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// Create a grid with snake pattern (alternating row directions)
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GridScanSettings grid(3, 1.0f, 1.0f, true, false);
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grid.ImageNum(9); // 3x3 grid
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// Create test input data [0,1,2,3,4,5,6,7,8]
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std::vector<float> input(9);
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for (int i = 0; i < 9; i++) {
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input[i] = static_cast<float>(i);
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}
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input);
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// In snake mode, odd rows should be reversed
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// Input: [0,1,2,3,4,5,6,7,8]
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// Expected in rows: [0,1,2], [5,4,3], [6,7,8]
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// As flattened array: [0,1,2,5,4,3,6,7,8]
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REQUIRE(output.size() == 9);
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std::vector<float> expected = {0, 1, 2, 5, 4, 3, 6, 7, 8};
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for (size_t i = 0; i < expected.size(); i++) {
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REQUIRE(output[i] == Catch::Approx(expected[i]));
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}
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}
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SECTION("Vertical scan rearrangement") {
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// Test vertical scan mode
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GridScanSettings grid(3, 1.0f, 1.0f, false, true);
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grid.ImageNum(9); // 3x3 grid
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// Create test input data [0,1,2,3,4,5,6,7,8]
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std::vector<float> input(9);
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for (int i = 0; i < 9; i++) {
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input[i] = static_cast<float>(i);
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}
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input);
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// In vertical mode, scan goes down columns first
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// Input: [0,1,2,3,4,5,6,7,8]
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// Expected as columns: [0,3,6], [1,4,7], [2,5,8]
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// But indexed by row-major order, so positions transform
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REQUIRE(output.size() == 9);
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// Verify transformations by checking specific indices
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// The exact values depend on how vertical scan is implemented
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// These assertions may need adjustment based on implementation
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REQUIRE(output[0] == Catch::Approx(input[0]));
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REQUIRE(output[3] == Catch::Approx(input[1]));
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REQUIRE(output[6] == Catch::Approx(input[2]));
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REQUIRE(output[1] == Catch::Approx(input[3]));
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}
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SECTION("Mixed configuration - snake and vertical scan") {
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// Test combination of snake and vertical
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GridScanSettings grid(3, 1.0f, 1.0f, true, true);
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grid.ImageNum(9); // 3x3 grid
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// Create test input data [0,1,2,3,4,5,6,7,8]
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std::vector<float> input(9);
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for (int i = 0; i < 9; i++) {
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input[i] = static_cast<float>(i);
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}
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input);
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// 0 5 6
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// 1 4 7
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// 2 3 8
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std::vector<float> expected = {0, 5, 6, 1, 4, 7, 2, 3, 8};
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// Complex case with both features enabled
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REQUIRE(output.size() == 9);
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// Specific values would depend on implementation but ensure we get a valid output
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for (size_t i = 0; i < expected.size(); i++) {
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CHECK(output[i] == Catch::Approx(expected[i]));
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}
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}
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SECTION("Negative grid steps") {
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// Test with negative grid steps
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GridScanSettings grid(3, -1.0f, -1.0f, false, false);
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grid.ImageNum(9); // 3x3 grid
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// Create test input data [0,1,2,3,4,5,6,7,8]
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std::vector<float> input(9);
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for (int i = 0; i < 9; i++) {
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input[i] = static_cast<float>(i);
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}
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input);
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// Both fast and slow directions are negative, so mapping inverts both ways
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// Expected: [8,7,6,5,4,3,2,1,0]
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REQUIRE(output.size() == 9);
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for (int i = 0; i < 9; i++) {
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REQUIRE(output[i] == Catch::Approx(input[8-i]));
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}
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}
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SECTION("Input smaller than grid") {
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// Test case where input is smaller than grid
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GridScanSettings grid(3, 1.0f, 1.0f, false, false);
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grid.ImageNum(9); // 3x3 grid
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// Create test input data [0,1,2,3,4] (shorter than grid)
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std::vector<float> input = {0, 1, 2, 3, 4};
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input, 172.0f);
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// Output should be full size with NANs for missing data
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REQUIRE(output.size() == 9);
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for (int i = 0; i < 5; i++) {
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REQUIRE(output[i] == Catch::Approx(input[i]));
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}
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for (int i = 5; i < 9; i++) {
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REQUIRE(output[i] == 172.0f);
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}
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}
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SECTION("Input larger than grid") {
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// Test case where input is larger than grid
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GridScanSettings grid(2, 1.0f, 1.0f, false, false);
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grid.ImageNum(4); // 2x2 grid
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// Create test input with more elements than grid
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std::vector<float> input = {0, 1, 2, 3, 4, 5};
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// Rearrange the data
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std::vector<float> output = grid.Rearrange(input);
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// Output should match grid size and ignore extra input
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REQUIRE(output.size() == 4);
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for (int i = 0; i < 4; i++) {
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REQUIRE(output[i] == Catch::Approx(input[i]));
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}
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}
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}
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TEST_CASE("GridScanSettings GetXContainer_m", "[GridScanSettings][container]") {
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// Standard horizontal scan, step +2um X, +3um Y, 4 fast, 3 slow (12 total)
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GridScanSettings grid_horiz(4, 2.0f, 3.0f, false, false);
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grid_horiz.ImageNum(12); // 3 rows of 4
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auto x_m = grid_horiz.GetXContainer_m(12);
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REQUIRE(x_m.size() == 12);
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// 0..3 should be X=0,2,4,6 um, Y=0
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REQUIRE(x_m[0] == Catch::Approx(0.0));
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REQUIRE(x_m[1] == Catch::Approx(2.0e-6));
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REQUIRE(x_m[2] == Catch::Approx(4.0e-6));
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REQUIRE(x_m[3] == Catch::Approx(6.0e-6));
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// 4..7 should be X=0,2,4,6 um, Y=3 um
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REQUIRE(x_m[4] == Catch::Approx(0.0));
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REQUIRE(x_m[7] == Catch::Approx(6.0e-6));
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// Last row
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REQUIRE(x_m[8] == Catch::Approx(0.0));
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REQUIRE(x_m[11] == Catch::Approx(6.0e-6));
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// Snake raster test (horizontal, 3x2, fast +1um, slow +10um)
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GridScanSettings grid_snake(3, 1.0f, 10.0f, true, false);
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grid_snake.ImageNum(6); // 2 rows of 3
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auto x_snake = grid_snake.GetXContainer_m(6);
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// 0,1,2: left-to-right, 3,4,5: right-to-left
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REQUIRE(x_snake[0] == Catch::Approx(0.0e-6));
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REQUIRE(x_snake[1] == Catch::Approx(1.0e-6));
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REQUIRE(x_snake[2] == Catch::Approx(2.0e-6));
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REQUIRE(x_snake[3] == Catch::Approx(2.0e-6));
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REQUIRE(x_snake[4] == Catch::Approx(1.0e-6));
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REQUIRE(x_snake[5] == Catch::Approx(0.0e-6));
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// Vertical scan, step X = 20um, fast Y = 5um, 2 fast, 3 slow (6 total)
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GridScanSettings grid_vert(3, 20.0f, 5.0f, false, true);
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grid_vert.ImageNum(6); // 2 columns, 3 rows (vertical fast)
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auto x_vert = grid_vert.GetXContainer_m(6);
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// First col: X=0, Y=0,5,10
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REQUIRE(x_vert[0] == Catch::Approx(0.0));
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REQUIRE(x_vert[1] == Catch::Approx(0.0));
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REQUIRE(x_vert[2] == Catch::Approx(0.0));
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// Second col: X=20um, Y=0,5,10
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REQUIRE(x_vert[3] == Catch::Approx(20.0e-6));
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REQUIRE(x_vert[5] == Catch::Approx(20.0e-6));
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// Negative steps test
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GridScanSettings grid_neg(3, -2.0f, -7.5f, false, false);
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grid_neg.ImageNum(6); // 2 rows of 3
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auto x_neg = grid_neg.GetXContainer_m(6);
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REQUIRE(x_neg[0] == Catch::Approx(4.0e-6)); // 2*(3-1)
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REQUIRE(x_neg[1] == Catch::Approx(2.0e-6));
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REQUIRE(x_neg[2] == Catch::Approx(0.0));
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}
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TEST_CASE("GridScanSettings GetYContainer_m", "[GridScanSettings][container]") {
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// Standard horizontal scan, step +2um X, +3um Y, 4 fast, 3 slow (12 total)
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GridScanSettings grid_horiz(4, 2.0f, 3.0f, false, false);
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grid_horiz.ImageNum(12); // 3 rows of 4
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auto y_m = grid_horiz.GetYContainer_m(12);
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REQUIRE(y_m.size() == 12);
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for (int i = 0; i < 4; ++i)
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REQUIRE(y_m[i] == Catch::Approx(0.0));
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// 4..7 should be X=0,2,4,6 um, Y=3 um
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REQUIRE(y_m[4] == Catch::Approx(3.0e-6));
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REQUIRE(y_m[7] == Catch::Approx(3.0e-6));
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// Last row
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REQUIRE(y_m[8] == Catch::Approx(6.0e-6));
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REQUIRE(y_m[11] == Catch::Approx(6.0e-6));
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// Snake raster test (horizontal, 3x2, fast +1um, slow +10um)
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GridScanSettings grid_snake(3, 1.0f, 10.0f, true, false);
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grid_snake.ImageNum(6); // 2 rows of
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auto y_snake = grid_snake.GetYContainer_m(6);
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// 0,1,2: left-to-right, 3,4,5: right-to-left
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// Both rows Y
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for (int i = 0; i < 3; ++i)
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REQUIRE(y_snake[i] == Catch::Approx(0.0));
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for (int i = 3; i < 6; ++i)
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REQUIRE(y_snake[i] == Catch::Approx(10.0e-6));
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// Vertical scan, step X = 20um, fast Y = 5um, 2 fast, 3 slow (6 total)
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GridScanSettings grid_vert(3, 20.0f, 5.0f, false, true);
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grid_vert.ImageNum(6); // 2 columns, 3 rows (vertical fast)
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auto y_vert = grid_vert.GetYContainer_m(6);
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// First col: X=0, Y=0,5,10
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REQUIRE(y_vert[0] == Catch::Approx(0.0));
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REQUIRE(y_vert[1] == Catch::Approx(5.0e-6));
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REQUIRE(y_vert[2] == Catch::Approx(10.0e-6));
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// Second col: X=20um, Y=0,5,10
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REQUIRE(y_vert[3] == Catch::Approx(0.0));
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REQUIRE(y_vert[5] == Catch::Approx(10.0e-6));
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// Negative steps test
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GridScanSettings grid_neg(3, -2.0f, -7.5f, false, false);
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grid_neg.ImageNum(6); // 2 rows of 3
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auto y_neg = grid_neg.GetYContainer_m(6);
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REQUIRE(y_neg[0] == Catch::Approx(7.5e-6));
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REQUIRE(y_neg[1] == Catch::Approx(7.5e-6));
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REQUIRE(y_neg[2] == Catch::Approx(7.5e-6));
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REQUIRE(y_neg[3] == Catch::Approx(0.0));
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REQUIRE(y_neg[4] == Catch::Approx(0.0));
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REQUIRE(y_neg[5] == Catch::Approx(0.0));
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}
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